Introduction to Cancer PDF

Summary

This presentation introduces the concept of cancer, covering its mechanisms, and the role of growth factors in its development. The presentation provides learning objectives and a structure for understanding the various aspects of cancer. It further provides information about the characteristics of normal cells, which are frequently contrasted throughout the presentation, to help the reader understand the differences between normal cells and cancerous cells.

Full Transcript

Introduction to Cancer
Note-taker:
Renad
Reviewed by:
Hawraa Alibrahim
Black font meaning it
doesn’t mention in
class it’s mentioned
in 221 recording

Professor Amein Al-Ali
Associate Professor , Department of Biochemistry
College of Medicine, IAU

Learning Objectives
After participating successfully in this session and
related activities, students should be able to:

•

Understand the mechanisms by which
unregulated cell growth may lead to cancer.

https://youtu.be/GhfrHjBX5eA

https://youtu.be/GhfrHjBX5eA

Introduction to Cancer

Lecture 1- Introduction to Cancer
Lecture 2- What effect does cancer have on the
patient?
Lecture 3- Molecular Biology of Cancer I

Lecture 4- Molecular Biology of Cancer II
Lecture 5- Molecular Biology of Cancer III

Introduction to Cancer

What is Cancer?
Normal cell

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•
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Normal cell growth- cells divide when new cells required
Cell growth- slowly, tight control maintain cell tissue number.
tight regulation of the cell cycle, DNA replication and cell
division, enter cell cycle when instructed
Cells stop dividing when need is met

Cancer cell

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•
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Cancer- one cells changes
Rapid uncontrolled growth

Growing mass of cancer cells - tumour

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Tumour formation- errors in signalling the end of cell division
Introduction to Cancer

• Cytokinesis

Fig 11.2 Lewin et al.

Introduction to Cancer

•

Entry Into Cell Cycle Is Tightly Regulated
Cell divisions are not continuous
✓ controlled by:
• External stimuli
• Nutrient availability

•

•

Extracellular signals

Intracellular biochemical response:
✓ Cell Cycle Entry Or
✓ Arrest In A G1/G0 Phase

ie: either growth promoting or inhibiting
Introduction to Cancer

Growth Factors
Growth factors are usually secreted proteins or a steroid
hormones {EGF (epidermal), NGF(nerve)}

•
•
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Over 200 growth factors

Circulate in the blood
Required for Growth/differentiation

•

Cells do not divide or differentiate unless stimulated by
environmental stimuli or growth factors

Introduction to Cancer

Growth Factors

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Multiple effects

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✓ Regulation of cell cycle progression w
• Effects on cell growth, differentiation and
proliferation
✓ Cell survival
✓ Cell migration
✓ Cell death
Balance of growth factors and their receptors

°
⑦

--

Introduction to Cancer

Growth Factors

• Growth factors regulate the cell cycle
✓ Normal and cancer cells cycle starts from
quiescent non-dividing state, G0
✓ stimulate progression through G1

• Growth factors regulate cell death
✓ Withdrawal of GF favours apoptosis
✓ Presence of GF inhibits apoptosis
Introduction to Cancer

Growth
Factor
Hormone

Receptor

Signals
Gene
transcription

Proteins that inhibit
intracellular signals

Cell proliferation/cell death
Introduction to Cancer

Cell movement

Types of Growth Factors: Use in Clinical
Medicine
• Single growth factors used in clinical practice
~
• Combination of growth factors- Proliferation of
-

cells

°
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•

O
.
1

Examples of growth factors include – platelet
derived growth factor (PDGF(platelet rich plasma)
stimulate gene expression in monocytesmacrophages and fibroblasts-cell repair ),
epidermal growth factor (EGF-nerves),
erythropoietin (EPO-erythrocytes)
-5
-

GF

-

Introduction to Cancer

PDGF

EGF

Epo

•
•

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Types of Growth Factors: Use in Clinical
Medicine
Erythropoietin & GM-CSF
EPO stimulates the proliferation of red cells and their
differentiation
EPO – used for the treatment of anemia of renal
disease
GM-CSF (Granulocyte-macrophage colony-stimulating factor)
stimulates blood stem cell proliferation and
mobilization (bone marrow transplantation and post
chemotherapy to aid bone marrow recovery)
Introduction to Cancer

Growth Factors: Role in Cancer

•

Normal
✓ affect growth, proliferation and differentiation
W
✓ not present all the time
2

3

:
2

.

·

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Cancers
✓ growth factors or their receptors overO
active or
active inappropriately
✓ Constitutive activation of receptors in cancer
.
2

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:
2

- - -

↳

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Introduction to Cancer

Growth Factors: Role in Cancer

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Epidermal growth factor receptor II - breast cancer
prognostic marker (over expression)
Tumors produce growth factors such as IGF-1, IGF-2,
EGF stimulate tumour growth in an autocrine fashion
, effects the same cell that release it. (breast &
prostate cancer)
Mechanisms lead to growth factor over production in
tumours is not clear
Introduction to Cancer

Mechanisms by Which a Normal Cell
May Limit Proliferation
Normal Cells

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Maturation of cell into a Ot
resting or quiescent state
°

Post-mitotic differentiation

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>

Programmed cell death

All of these processes are disrupted in cancer cells
- -

Introduction to Cancer

Normal Cells May Exit From and Reenter the Cell Cycle

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Normal cells may respond to external signals -enter
G0

Normal cells undergo limited number of divisions
before they stop proliferating

Introduction to Cancer

Normal Cells May Exit From and ReEnter the Cell Cycle

•

•
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Many cells slow down or halt cell proliferation as a
person ages

Quiescent cells may be stimulated to return to the
cell cycle at G1 by environmental cues
Cancer cells ignore signals to enter G0 and continue
proliferating

Introduction to Cancer

Cell Differentiation Limits the Pool of
Dividing Cells; Differentiation

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Normal cells-permanently leave cell cycle by
differentiating into a specialized cell type

Cells turning over rapidly constantly renewed from
stem cells which proliferate and differentiate into
more specialized cells
e.g. skin, bone marrow, lining of intestine

Introduction to Cancer

Cell Differentiation Limits the Pool of
Dividing Cells

•
•

When a normal stem cell divides each daughter cell
has a choice- it can remain a stem cell or go on a
course leading to irreversible terminal differentiation
Cells that have differentiated have reached their
final specialized form

Introduction to Cancer

Cell Differentiation Limits the Pool of
Dividing Cells
Stem cells- essentially have unlimited capability to
renew themselves

•

Inducing stem cells to enter post-mitotic
differentiation- hence no capacity for
proliferation
• Tissue can decrease its pool of replicating cells
• Cancer cells fail to undergo terminal differentiation
and proliferate to form a tumour

Introduction to Cancer

Failure of Cells to Differentiate Can Lead to
Tumour Formation

Introduction to Cancer

Cells are Subject to Growth Inhibition
and May Exit From the Cell Cycle
Some cells programmed to self-destruct by apoptosis

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Apoptosis eliminates healthy cells during
development and eliminates damaged cells that can
pose a threat to the organism
Mutations that compromise a cell’s ability to carry
out apoptosis can result in tumour formation

Introduction to Cancer

Figure 9.19 Purves et al., 7th ed
Introduction to Cancer

Figure 15.32 Karp 4th ed
Introduction to Cancer

Tumours are Masses of Cells Derived
from a Single Cell

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•
•

Cancers progress from:
✓ A single mutant cell
✓ To a tumour
✓ Then to metastasis
Cancer is a multistep process that requires at least
four to six different mutations to reach the tumour
state
Can take decades for a single mutant cell to
proliferate into a palpable tumour
Introduction to Cancer

Tumours are Clonal

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Single cell sustains mutation in one of its growthregulating genes- proliferates more rapidly

•
•

Another cell of the clone acquires another mutation
Tumor genesis progresses by clonal expansion, increasingly abnormal cells outgrow their less
mutant neighbours

Introduction to Cancer

Figure 13.17 Lewin et al.

Introduction to Cancer

Cancer Cells Have a Number of
Phenotypic Characteristics
Cancer cells- several distinct properties

Absence of Contact inhibition

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do not stop dividing when they contact a neighboring
cell (Contact inhibition)

Introduction to Cancer

•

Growth properties of normal and cancerous cellscancer cells do not require attachment to a physical
substrate in order to grow

Figure 16.3 Karp 4th Edition
Introduction to Cancer

Normal cells

Cancerous cells

Figure 16.3 Karp 4th Edition
Introduction to Cancer

Cancer Cells Have a Number of
Phenotypic Characteristics
reduced requirement

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Cancer cells have a greatly reduced requirement for
growth factors to sustain proliferation
resistant to growth-inhibitory

•

Cancer cells are resistant to growth-inhibitory signals

Introduction to Cancer

The Effects of Growth Factor Deprivation
on Normal and Cancerous Cells

Figure 16.4 Karp 4th Edition
Introduction to Cancer

Cancer Cells Have a Number of
Phenotypic Characteristics
Immortality

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Unlike normal cells in culture, which halt division after a
certain number of growth-and-division cycles:
o Cancer cells are immortal
o They do not stop dividing after a predetermined number
of generations

chromosomal aberrations

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Cancer cells often have chromosomal aberrations,
including changes in chromosome number and structure
Introduction to Cancer

Karyotype of a cell from a breast cancer cell line
displaying a highly abnormal chromosome complement

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1

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13

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19

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22
X

Fig 16.5 Karp 4th ed
Introduction to Cancer

Figure 13.27 Lewin et al.

Introduction to Cancer

Cancerous Cells are Distinguished From
Normal Cells by a Number of Traits

Figure 13.3 Lewin et al
Introduction to Cancer

Tissue Mass is a Balance Between Cell
Division and Cell Death

• In normal tissues, cells may proliferate continually but
numbers remain steady because cell production is
balanced by cell loss

• If too many cells are produced, the rate of apoptosis
will increase to dispose of the surplus

• Deregulated cell growth is the defining feature of all
cancers

• Cancer cells fail to commit suicide when a normal cell
would do so
Introduction to Cancer

Maintenance of tissue mass requires a critical
balance between cell division and cell death
Cell division (cell cycle
progression – cell proliferation)

Introduction to Cancer

Apoptosis( cell death)

Summary

Introduction to Cancer

Summary

•
•
•

Cell cycle is tightly regulated in normal cells
Growth factors stimulate growth and differentiation
of cells

In many cancers, growth factors or their receptors
are over active resulting in constant stimulation of
cell growth

Introduction to Cancer

Summary

•
•

•
•

Cancer cells do not respond to normal cell growth
constraints and do not undergo terminal
differentiation –Immortal
Cancer cells have defects in their cell death
machinery and do not undergo apoptosis- Favours
Cell Division

Tumours are derived from a single cell and are clonal
Cancer cells are distinguished from normal cells by a
number of phenotypic traits
Introduction to Cancer

Learning Objectives
You should now be able to:

•

•
•

•
•
•

Understand the mechanisms by which unregulated cell growth may lead to
cancer.
Appreciate that cells grow and divide at different rates and differentiate in
response to stimuli by growth factors
Understand that most cancers arise from a single cell and progress through
several stages resulting in loss of cellular differentiation which may take
several years
Understand the concept of clonality, where cancer cells inherit the defects
and phenotype of the mother cell
Be able to describe phenotypic differences between normal and cancer cells
Understand the concept of tissue mass being a result of balance between
cell division and cell death
Introduction to Cancer

References
• Molecular Biology of the Cell 4th ed Alberts et al.
• Cell and Molecular Biology 4th ed Karp.
• Cells Lewin et al.

• Life 7th ed Purves et al.

Introduction to Cancer